NX2139ACMTR MICROSEMI [Microsemi Corporation], NX2139ACMTR Datasheet - Page 11

NX2139ACMTR

Manufacturer Part Number

NX2139ACMTR

Description

SINGLE CHANNEL MOBILE PWM AND LDO CONTROLLER

Manufacturer

MICROSEMI [Microsemi Corporation]

Datasheet

1.NX2139ACMTR.pdf (21 pages)

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APPLICATION INFORMATION

Symbol Used In Application Information:

Design Example

the schematic is figure 1.

On_Time and Frequency Calculation

NX2139A delivers high efficiency, excellent transient

dynamic response, make it a good candidate for step

down notebook applications.

driver with an on time which is proportional to the input

supply

voltage

charges the output cap increasing the output voltage

by the amount equal to the output ripple. Once the

timer turns off, the Hdrv turns off and cause the output

voltage to decrease until reaching the internal FB volt-

age of 0.75V on the PFM comparator. At this point the

comparator trips causing the cycle to repeat itself. A

minimum off time of 400nS is internally set.

to be 1Mohm, when VIN=22V, the TON is 372nS and

Rev. 2.3

03/19/09

OUT

RIPPLE

=220kHz

RIPPLE

DROOP

RIPPLE

= 7 to 22V

The following is typical application for NX2139A,

=7A

=1.8V

The constant on time control technique used in

The equation setting the On Time is as follows:

In this application example, the RTON is chosen

TON

An internal one shot timer turns on the high side

<=60mV @ 3A step

<=60mV

- Working frequency

- Inductor current ripple

- Output current

- Output voltage ripple

- Input voltage

- Output voltage

OUT

as well inversely proportional to the output

. During this time, the output inductor

4.45 10

OUT

TON

0.5V

TON

OUT

...(2)

...(1)

Output Inductor Selection

current and working frequency. Larger inductor value

normally means smaller ripple current. However if the

inductance is chosen too large, it brings slow response

and lower efficiency. The ripple current is a design free-

dom which can be decided by design engineer accord-

ing to various application requirements. The inductor

value can be calculated by using the following equa-

tions:

DO5010H-152 with L=1.5uH is chosen.

Output Capacitor Selection

amount of the output voltage ripple allowed during

steady state(DC) load condition as well as specifica-

tion for the load transient. The optimum design may

require a couple of iterations to satisfy both conditions.

Based on DC Load Condition

condition is determined by equation(5).

series resistance,C

tors.

NX2139's applications. The amount of the output volt-

age ripple is dominated by the first term in equation(5)

is around 220kHz.

The value of inductor is decided by inductor ripple

where k is percentage of output current.

In this example, inductor from COILCRAFT

Current Ripple is recalculated as below:

Output capacitor is basically decided by the

The amount of voltage ripple during the DC load

Where ESR is the output capacitors' equivalent

Typically POSCAP is recommended to use in

RIPPLE

OUT

RIPPLE

=5A

=k I

(22V-1.8V) 372nS

(V -V

V -V

ESR

OUTPUT

RIPPLE

OUT

1.5uH

OUT

) T

is the value of output capaci-

RIPPLE

8 F

...(4)

...(3)

RIPPLE

NX2139A

OUT

...(5)

NX2139ACMTR MICROSEMI [Microsemi Corporation], NX2139ACMTR Datasheet - Page 11

NX2139ACMTR

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